醌类衍生物全反式合成方法研究进展

醌类衍生物是生命体活动中的重要物质,但是醌类衍生物只有其反式异构体才有生理活性,所以如何实现醌类物质的全反式合成,是其合成研究的热点.二十世纪六十年以来,具有生物活性的醌类衍生物合成的研究不断深入,并取得了很大的进展.作者就醌类衍生物的全反式合成做一概述.     

质体醌类化合物的合成研究

醌环的取代基对醌类化合物进行光合作用的电子传递过程有很大影响. 我们设想若能在保持与醌环上的甲基相近体积的条件下, 将其中一个甲基换成氯原子, 这样, 这类化合物醌环上的电子密度显然会低于质体醌, 从而进一步研究它们在光合作用中的作用, 有助于进一步阐明光合作用机制, 以3-氯-2-甲基苯胺为原料, 经氧化, 自由烷基化反应, 合成了十六个具有不同长侧链结构的质体醌类似物.     

泛醌类化合物研究进展

泛醌在线粒体和光合作用的电子迁移系统中起着十分重要的作用。本文对天然泛醌的分离方法,各类合成泛醌类似物的合成方法,结构特点和化学性质作一简要介绍。     

哌嗪酮取代醌类衍生物的简便合成

建立了一锅法合成哌嗪酮取代醌类衍生物的方法.该方法以哌嗪酮烯胺酯为合成砌块,以乙腈为溶剂,醋酸作催化剂,在室温条件下,通过哌嗪酮烯胺酯1与醌类化合物2的α-C选择性烷基化反应,再经氧化脱氢简洁高效地合成了一系列结构新颖的哌嗪酮醌类衍生物3a~3l,产率70%~88%.该方法具有原料易得、合成路线简洁、产率高和操作简便等特点.     

二羟基蒽醌磷酰化衍生物的合成及表征

分别以4种不同位取代的二羟基葸醌和亚磷酸二乙酯或亚磷酸二丙酯为原料,通过简化的Atheron-Todd合成法合成了一系列二羟基葸醌的磷酰化衍生物,并通过量化计算对葸醌上不同羟基电荷分布进行了研究,发现β-羟基氧上的电荷密度大于β-羟基氧上的电荷密度.所合成化合物的结构均经IR,MS,1H NMR,31p NMR和元素分析确证,并通过荧光猝灭法初步探讨了部分新化合物的生物活性.     

考尼伐坦关键中间体的合成

合成考尼伐坦关键中间体2-甲基-6-(4-甲基苯磺酰基)-1,4,5,6-四氢咪唑[4,5-d][1]苯并氮杂卓并对其工艺优化。以氨茴酸甲酯为起始原料,经保护、烃化、环合、脱羧、溴化、烃化并缩合共六步反应合成考尼伐坦关键中间体。所得的目标化合物经核磁共振氢谱、质谱确认,总收率达49.06%。该关键中间体合成方法和工艺改进后,所用原料价格便宜、反应条件温和、反应周期缩短、产率提高,更加适合于工业化生产。     

新型联苯醌衍生物静电照相性能的研究

本研究合成了一系列联苯醌衍生物并对其结构进行确认,同时以合成的联苯醌衍生物作为电子传输材料(ETM)与空穴传输材料(HTM)、电荷产生材料(CGM)和成膜树脂进行匹配,制备了多组分掺杂的单层结构有机光导体.研究结果表明,光导体的感光度强烈地依赖于ETM的掺杂浓度,半衰曝光量首先随ETM浓度的增大而减小,在掺杂浓度为10%时降到最小,并趋于稳定.2,5,5′-三叔丁基联苯醌在所研究的联苯醌衍生物中性能最为优秀,在780 nm处半衰曝光量为2.2μJ/cm2.     

樟脑醌合成的研究进展

樟脑醌是由樟脑衍生的重要精细化工产品，它在国际市场上的价格是樟脑的数十倍甚至上百倍。我国主要将樟脑作为初级产品出口，在樟脑的高值化衍生物的开发方面还较薄弱。本文详述了近四十年来，国际上对樟脑醌的合成及应用的研究进展。     

盐酸考尼伐坦关键中间体N-甲苯磺酰基苯并氮杂卓-5-酮合成工艺的改进

以对甲苯磺酰氯和邻氨基苯甲酸甲酯为原料,通过酰胺化、酰亚胺和卤代烃的缩合、克曼环化及水解脱羧等反应,合成盐酸考尼伐坦关键中间体N-甲苯磺酰基苯并氮杂卓-5-酮。 在合成过程中,分别减少了有毒溶剂吡啶的用量,用叔丁醇钾代替怕水易爆的氢化钠,用容易购买回收的2-甲基四氢呋喃代替丁酮为溶剂,目标化合物的总收率由55%提高至63%,纯度达到99%以上。 所得化合物经熔点、核磁共振氢谱等得到确认。 该工艺显著地提高了中间体的产量及质量,因而提高了盐酸考尼伐坦的产率。     

盐酸考尼伐坦关键中间体N-甲苯磺酰基苯并氮杂卓-5-酮合成工艺的改进

以对甲苯磺酰氯和邻氨基苯甲酸甲酯为原料,通过酰胺化、酰亚胺和卤代烃的缩合、克曼环化及水解脱羧等反应,合成盐酸考尼伐坦关键中间体N-甲苯磺酰基苯并氮杂卓-5-酮。在合成过程中,分别减少了有毒溶剂吡啶的用量,用叔丁醇钾代替怕水易爆的氢化钠,用容易购买回收的2-甲基四氢呋喃代替丁酮为溶剂,目标化合物的总收率由55%提高至63%,纯度达到99%以上。所得化合物经熔点、核磁共振氢谱等得到确认。该工艺显著地提高了中间体的产量及质量,因而提高了盐酸考尼伐坦的产率。     

Improved Synthesis of 3-Nitrophenylacetic Acid

In the development of certain work in our laboratory, we needed large quantities of 3-nitrophenylacetic acid. This material is very expensive commercially. It therefore became necessary to find a convenient and efficient process since none of the reported procedures is suitable for a large scale preparation of 3-nitrophenylacetic acid. In the first synthesis reported by Frederick et al.¹, 3-nitrobenzyl chloride was converted to 3-nitrophenylaceto-nitrile which was hydrolyzed to 3-nitrophenylacetic acid in 38% yield. The utility of this method for making large quantities of 3-nitrophenylacetic acid is restricted by the high cost of 3-nitrobenzyl halides. The second 2 method published by Jennings² is a multistep process starting with 3-nitrobenzaldehyde and the reported overall yield is 31%. This method also is not suitable for a large scale preparation due to the hazardous nature of the acid azide which is formed as one of the intermediates in this five step sequence. The third method describes the conversion of 3-nitroacetophenone to 3-nitrophenyl-acetic acid by willgerodt reaction.³ Although the starting material 3-nitroacetophenone is inexpensive but the reported yield of 3-nitrophenylacetic acid is only 7%. The high temperature required in the willgerodt reaction causes the reduction of nitro group by sulfur resulting in a bad mixture thus lowering the yield of nitrothio-morpholide (3) and making its isolation difficult.     

Rapid and Direct Conversion of Graphite Crystals into High‐Yielding,Good‐Quality Graphene by Supercritical Fluid Exfoliation

Graphene has attracted a great deal of attention in recent years due to its unusual electronic, mechanical, and thermal properties. Exploiting graphene properties in a variety of applications requires a chemical approach for the large‐scale production of high‐quality, processable graphene sheets (GS), which has remained an unanswered challenge. Herein, we report a rapid one‐pot supercritical fluid (SCF) exfoliation process for the production of high‐quality, large‐scale, and processable graphene for technological applications. Direct high‐yield conversion of graphite crystals to GS is possible under SCF conditions because of the high diffusivity and solvating power of SCFs, such as ethanol, N‐methyl‐pyrrolidone (NMP), and DMF. For the first time, we report a one‐pot direct conversion of graphite crystals to a high yield of graphene sheets in which about 90–95 % of the exfoliated sheets are <8 layers with approximately 6–10 % monolayers and the remaining 5–10 % are ≥10 layers.     

无溶剂法大量制备高效红光碳点及其在白光器件中的应用

以邻苯二胺、 2,5-二氨基苯磺酸和三氯化铝为原料, 通过无溶剂法大量制备了高效的红色荧光碳点 (R-CDs). 制得的碳点尺寸大约为2.4 nm, 含有13%的氮元素, 主要由高度石墨化的碳核及覆盖在其表面的大量官能团构成. 在不同的波长光激发下, 碳点在乙醇溶液中表现出不依赖于激发的红光发射, 其荧光峰位于 704 nm, 最大量子产率达到22%. 由于R-CDs具有优异的光学性质, 利用其构筑了紫外光激发的碳基白色发光二极管, 其色坐标为(0.33, 0.33), 非常接近自然光. 该研究为高效红色荧光碳点的大量制备提供了一种新路径, 同时拓宽了其在白光器件中的应用.     

Oxidative kinetic resolution of racemic alcohols catalyzed by chiral ferrocenyloxazolinylphosphine-ruthenium complexes

Oxidative kinetic resolution of racemic secondary alcohols by using acetone as a hydrogen acceptor in the presence of a catalytic amount of [RuCl(2)(PPh(3))(ferrocenyloxazolinylphosphine)] (2) proceeds effectively to recover the corresponding alcohols in high yields with an excellent enantioselectivity. When 1-indanol is employed as a racemic alcohol, the oxidation proceeds quite smoothly even in the presence of 0.0025 mol % of the catalyst 2 to give an optically active 1-indanol in good yield with high enantioselectivity (up to 94% ee), where turnover frequency (TOF) exceeds 80,000 h(-1). From a practical viewpoint, the kinetic resolution is investigated in a large scale, optically pure (S)-1-indanol (75 g, 56% yield, >99% ee) being obtained from racemic 1-indanol (134 g) by employing this kinetic resolution method twice.     

LARGE SCALE,EFFICIENT SYNTHESIS OF 9-UNSUBSTITUTED DIPYRRINONE

ABSTRACT

9-Unsubstituted dipyrrinone 8, the useful precursor for the synthesis of biliverdins, bilirubins, and other bile pigments, was synthesized in large scale and high yield starting from acetaldehyde and nitroethane in eight steps with overall yield 10%. The key intermediate 3,4-dimethyl-2-ethoxycarbonylpyrrole 3 was synthesized via Zard–Barton's method in high yield.     

Synthesis of 3,4‐dihydro‐1(2H)‐isoquinolinonesxs

Approaches toward the preparative‐scale synthesis of target 3,4‐dihydro‐1(2H)‐isoquinolinones 1–3 are presented. Compounds 1 and 2 were prepared via a Schmidt rearrangement on easily obtained indanone precursors, but in low overall yield. A better method to make this class of compounds is exemplified by the large‐scale synthesis of 2 via a Curtius rearrangement sequence. Thus, high‐temperature thermal cyclization of an in situ formed styryl isocyanate from precursor 8 in the presence of tributylamine gave the corresponding 1(2H)‐isoquinolinone ( 9 ). Catalytic hydrogenation of 9 provided the desired 3,4‐dihydro‐5‐methyl‐1(2H)‐isoquinolinone ( 2 ) in 65 % overall yield. Similar reduction of a commercially available 5‐hydroxy‐1(2H)‐isoquinolinone precursor 10 followed by an O ‐alkylation/amination sequence gave target 3 in good overall yield. The route proceeding via the Curtius rearrangement is recommended for large scale synthesis of other 3,4‐dihydro‐1(2H)‐isoquinolinones. Only when deactivating substituents or sensitive functionality within the benzenoid ring render the high temperature ring closure of the intermediate isocyanate inefficient might a Schmidt rearrangement protocol be the method of choice.     

Kilogram-scale synthesis of carbon quantum dots for hydrogen evolution,sensing and bioimaging

A facile, low-cost, green, kilogram-scale synthesis of high quality CQDs were synthesized. The throughput of CQDs is 1.4975 kg in one pot and the as-prepared CQDs have a highly crystalline hexagonal structure with remarkable solubility, stability, and biocompatibility. It showed outstanding electrocatalytic activity, Fe³⁺ sensitivity and good biocompatibility.     

3-羟甲基氮杂环丁烷盐酸盐的实用合成方法

氮杂环丁烷类化合物是一类重要的饱和四元含氮杂环化合物,在药物研发中有着广泛的应用。本文以二苯甲胺和环氧氯丙烷为起始原料,在碱性条件下反应关环构建N-杂环丁烷母核,之后依次发生羟基的氧化、Wittig反应生成环外双键,随后采用硼氢化氧化反应将双键转化为羟甲基,最后氢化脱去二苯甲基得到目标产物3-羟甲基氮杂环丁烷,反应的5步转化总收率为40%。该合成方法操作简单,原料廉价易得,避免了剧毒试剂的使用,具有很好的工业化前景。     

Kilogram-scale synthesis of carbon quantum dots for hydrogen evolution,sensing and bioimaging

The development of large-scale synthetic methods for high quality carbon quantum dots (CQDs) is fundamental to their applications. However, the macroscopic preparation and scale up synthetic of CQDs is still in its infancy. Here, we report a facile, green, kilogram-scale synthesis of high quality fluorescent CQDs derived from poplar leaves via a one-step hydrothermal method. Notably, the throughput of CQDs can reach a level up to as high as 1.4975 kg in one pot. The structure and properties of the as-prepared CQDs were assessed through TEM, XRD, XPS and various spectroscopic methods. The obtained high quality CQDs with a photoluminescent quantum yield of 10.64% showed remarkable stability in aqueous media, rich functional groups, high photostability, consistent photoluminescence within biological pH range and low cytotoxicity. On account of these good properties, we demonstrated the multifunctional application to electrocatalytic water splitting, Fe³⁺ sensing and bioimaging. It showed remarkable electrocatalytic activity, Fe³⁺ sensitivity and good biocompatibility. This study provides a green, facile, inexpensive and large-scale method for producing high quality CQDs, which provides application value for large-scale production of CQDs.     

An efficient FeCl3-catalyzed amidation reaction of secondary benzylic and allylic alcohols with carboxamides or p-toluenesulfonamide

A simple, inexpensive, environmentally friendly and high yielding amidation reaction of benzylic and allylic alcohols with primary amides using a catalytic amount of FeCl₃ (5 mol %) is described. Direct substitution of various amides such as benzamide, sulfonamide, acetamide and acrylamide is reported, and this method also works on a large scale in high yield.